TY - JOUR
T1 - Method for continuous nondisturbing monitoring of blood pressure by magnetoelastic skin curvature sensor and ECG
AU - Kaniusas, Eugenijus
AU - Pfützner, Helmut
AU - Mehnen, Lars
AU - Kosel, Jürgen
AU - Téllez-Blanco, Juan Carlos
AU - Varoneckas, Giedrius
AU - Alonderis, Audrius
AU - Meydan, Turgut
AU - Vázquez, Manuel
AU - Rohn, Michael
AU - Merlo, Alberto M.
AU - Marquardt, Bernd
PY - 2006/6
Y1 - 2006/6
N2 - This paper concerns continuous nondisturbing estimation of blood pressure using mechanical plethysmography in connection with standard electrocardiography (ECG). The plethysmography is given by a novel magnetoelastic skin curvature sensor (SC-sensor) applied on the neck over the carotid artery. The sensor consists of a magnetoelastic bilayer partly enclosed by a coil. Bending the bilayer causes large changes of magnetic permeability which can be measured by the coil. The SC-sensor signal and the ECG signal are adaptively processed in order to estimate blood pressure according to a specifically established theoretical model. The model uses estimated vessel radius changes and pulse transit time as parameters. The results show cross correlation coefficients in the range 0.8 up to 0.9 between reference and estimated values of systolic blood pressure, diastolic blood pressure, and systolic/diastolic blood pressure change, whereas the estimation error was below 4 +/- 7 mmHg at rest and increased with the stress level. Limitations of the model applicability are given by a hysteretic behavior of both model parameters due to inert changes in artery stiffness. The SC-sensor and the ECG electrodes cause minimal inconvenience to the patient and offer an approach for a continuous nondisturbing monitoring of blood pressure changes, as being relevant for sleep monitoring or biomechanic feedback.
AB - This paper concerns continuous nondisturbing estimation of blood pressure using mechanical plethysmography in connection with standard electrocardiography (ECG). The plethysmography is given by a novel magnetoelastic skin curvature sensor (SC-sensor) applied on the neck over the carotid artery. The sensor consists of a magnetoelastic bilayer partly enclosed by a coil. Bending the bilayer causes large changes of magnetic permeability which can be measured by the coil. The SC-sensor signal and the ECG signal are adaptively processed in order to estimate blood pressure according to a specifically established theoretical model. The model uses estimated vessel radius changes and pulse transit time as parameters. The results show cross correlation coefficients in the range 0.8 up to 0.9 between reference and estimated values of systolic blood pressure, diastolic blood pressure, and systolic/diastolic blood pressure change, whereas the estimation error was below 4 +/- 7 mmHg at rest and increased with the stress level. Limitations of the model applicability are given by a hysteretic behavior of both model parameters due to inert changes in artery stiffness. The SC-sensor and the ECG electrodes cause minimal inconvenience to the patient and offer an approach for a continuous nondisturbing monitoring of blood pressure changes, as being relevant for sleep monitoring or biomechanic feedback.
KW - Blood pressure
KW - Electrocardiography
KW - Magnetoelastic amorphous ribbons
KW - Mechanical plethysmography
KW - Physiological sensors
KW - Skin curvature sensor
UR - http://www.scopus.com/inward/record.url?scp=33947186741&partnerID=8YFLogxK
U2 - 10.1109/JSEN.2006.874438
DO - 10.1109/JSEN.2006.874438
M3 - Article
AN - SCOPUS:33947186741
SN - 1530-437X
VL - 6
SP - 819
EP - 828
JO - IEEE Sensors Journal
JF - IEEE Sensors Journal
IS - 3
ER -